February 15, 2024
Journal Article

Mapping the proteogenomic landscape enables prediction of drug response in acute myeloid leukemia

Abstract

Acute myeloid leukemia is a poor prognosis cancer commonly stratified by genetic aberrations, but these mutations are often heterogeneous and don’t always predict therapeutic response. Here we combine transcriptomic, proteomic, and phosphoproteomic datasets with ex vivo drug sensitivity data to help understand the underlying pathophysiology of AML beyond mutations. We measured the proteome and phosphoproteome of 210 patients and combined them with genomics and transcriptomic measurements to identify four proteogenomic subtypes that complemented existing genetic subtypes. We then built a predictor to classify samples into subtypes based on 147 molecular features and mapped them to a ‘landscape’. Each region of this landscape corresponded to specific drug response patterns. We then built a drug response prediction model to identify drugs that target distinct subtypes. We can ultimately use these models to predict drug treatment response and prioritize treatments. Finally, we extended our models and mapped a series of cell lines representing various stages of quizartinib resistance into our subtype landscape, predicting and experimentally validating a switch in sensitivity to venetoclax to panobinostat, two drugs with very different mechanisms than quizartinib. Our results show how multi-omics data together with drug sensitivity data can inform therapy stratification and drug combinations in AML.

Published: February 15, 2024

Citation

Pino J.C., J.C. Posso Escobar, S.K. Joshi, M.D. Nestor, J. Moon, J.R. Hansen, and C.M. Hutchinson, et al. 2024. Mapping the proteogenomic landscape enables prediction of drug response in acute myeloid leukemia. Cell Reports Medicine 5, no. 1:Art. No. 101359. PNNL-SA-185276. doi:10.1016/j.xcrm.2023.101359

Research topics